RF IDeas’ pcProx card readers are designed for customers seeking to leverage their existing card system for applications beyond physical security. The pcProx Enroll readers are engineered to work with nearly all proximity and contactless smart card technologies. The 13.56 MHz contactless model is compatible with nearly all 13.56 MHz cards and the 125 kHz proximity model provides error-free identification for over 300 million physical access cards worldwide.
The Wall Mount card readers are specifically designed for applications such as kiosks, time & attendance, point of sale, hoteling, meeting attendance, plant floor, manufacturing, as well as others which require special mounting versatility.
These readers mount easily with two screws and fit in a single-gang electrical box. They incorporate all the functionality of the standard desktop readers and are ideal for specialized card and badge reading locations.
Featuring plug-n-play functionality, no required software, and embedded configurable flash memory, the reader is ready to integrate with nearly all operating systems, applications, and embedded controllers. The reader can be configured to add keystrokes before and after the card’s data. The USB model emulates a keyboard and keystrokes the card’s ID and/or site code to the cursor’s location in the application. The serial version, available in RS232, Ethernet, or USB Virtual COM, delivers the card’s data in ASCII.
RDR-805W1AKB-P uses the Allen-Bradley EtherNet/IP communication protocol, with ASCII data output. Providing seamless integration with Rockwell and Allen-Bradley products such as PanelView®, Plus 6®, FactoryTalk® View, ControlLogix® and CompactLogix®, gives customers an ODVA certified manufacturing solution in a single reader. RF IDeas readers offer proven industrial and manufacturing setting advancements that meet stringent certification requirements of Rockwell Automation, making pcProx readers ideal for implementation in industrial and manufacturing environments, where Operator ID is crucial to workflow.